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非氧低温机器灌注对热缺血肾脏保护作用的机制分析揭示了更大的 eNOS 磷酸化和血管舒张。

Mechanistic analysis of nonoxygenated hypothermic machine perfusion's protection on warm ischemic kidney uncovers greater eNOS phosphorylation and vasodilation.

机构信息

INSERM, U1082, Ischémie-reperfusion en Transplantation d'Organes: Mécanismes et Innovations Thérapeutiques, Poitiers, France; Faculté de Médecine et de Pharmacie, Université de Poitiers, Poitiers, France; Laboratoire de biochimie, CHU de Poitiers, Poitiers, France.

出版信息

Am J Transplant. 2014 Nov;14(11):2500-14. doi: 10.1111/ajt.12904. Epub 2014 Oct 10.

DOI:10.1111/ajt.12904
PMID:25307148
Abstract

Protection of endothelial cell function may explain the benefits of nonoxygenated hypothermic machine perfusion (MP) for marginal kidney preservation. However, this hypothesis remains to be tested with a preclinical model. We postulated that MP protects the nitric oxide (NO) signaling pathway, altered by static cold storage (CS), and improves renal circulation recovery compared to CS. The endothelium releases the vasodilator NO in response to flow via either increased endothelial NO synthase (eNOS) expression (KLF2-dependent) or activation of eNOS by phosphorylation (via Akt, PKA or AMPK). Using a porcine model of kidney transplantation, including 1 h of warm ischemia and preserved 24 h by CS or MP (n=5), we reported that MP did not alter the cortical levels of KLF2 and eNOS at the end of preservation, but significantly increased eNOS activating phosphorylation compared to CS. eNOS phosphorylation appeared AMPK-dependent and was concomitant to an increased NO-dependent vasodilation of renal arteries measured, ex situ, at the end of preservation. In vivo, laser Doppler showed that cortical microcirculation was improved at reperfusion in MP kidneys. In conclusion, we demonstrate for the first time, in a large-animal model, that MP protects the NO signaling pathway, confirming the value of MP for marginal kidney preservation.

摘要

保护内皮细胞功能可能解释了非含氧低温机器灌注(MP)对边缘肾脏保存的益处。然而,这一假设仍需通过临床前模型进行测试。我们假设 MP 通过以下方式保护了一氧化氮(NO)信号通路,该通路在静态冷保存(CS)中发生改变,并改善了与 CS 相比的肾脏循环恢复。内皮细胞通过增加内皮型一氧化氮合酶(eNOS)的表达(KLF2 依赖性)或通过磷酸化激活 eNOS(通过 Akt、PKA 或 AMPK)来响应流动释放血管扩张剂 NO。使用包括 1 小时热缺血和 CS 或 MP 保存 24 小时的猪肾移植模型(n=5),我们报告称,MP 并未改变保存结束时皮质层的 KLF2 和 eNOS 水平,但与 CS 相比,eNOS 激活磷酸化显著增加。eNOS 磷酸化似乎依赖于 AMPK,并且与保存结束时离体测量的肾动脉中依赖于 NO 的血管舒张增加相一致。在体内,激光多普勒显示在 MP 肾脏再灌注时皮质微循环得到改善。总之,我们首次在大动物模型中证明了 MP 对 NO 信号通路的保护作用,证实了 MP 对边缘肾脏保存的价值。

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